A novel 2D porous C<sub>3</sub>N<sub>2</sub> framework as a promising anode material with ultra-high specific capacity for lithium-ion batteries - Concepedia

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A novel 2D porous C<sub>3</sub>N<sub>2</sub> framework as a promising anode material with ultra-high specific capacity for lithium-ion batteries

41

Citations

53

References

2022

Year

Xinyong Cai, Wencai Yi, Chen Jiao, Linguo Lu, Bai Sun, Yuxiang Ni, Simon A. T. Redfern, Hongyan Wang, Zhongfang Chen, Yuanzheng Chen

Journal of Materials Chemistry A

EngineeringMaterial InnovationNovel 2DChemistryOrganic UnitsN 2Hybrid MaterialsMaterials ScienceBattery Electrode MaterialsAdvanced Electrode MaterialLithium-ion BatteriesEnergy StorageSwarm-intelligence Structure-search MethodSolid-state BatteryUltra-high Specific CapacityCrystal Structure DesignElectrochemistryLi-ion Battery MaterialsSelf-assemblyMetal AnodeApplied PhysicsHigh-performance MaterialElectrochemical Energy StorageBatteriesAnode MaterialsFunctional Materials

Abstract

Using swarm-intelligence structure-search method in conjunction with structure design via the assembly of organic units, we identified a novel holey α-C 3 N 2 monolayer as superior anode material of LIBs with ultra-high specific capacity.

References

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